Sine-bar grinding wheel truing device



Jan. 22, 1952 L P. BLACK 2,583,408

SINE BAR GRINDIING WHEEL TRUING DEVICE Filed oct. so, 1945 4 sheets-sheet 1 Jan. 22, 1952 l.. P. BLACK SINE BAR GRINDING WHEEL TRUING DEVICE Filed oct. so, 194s 4 Sheets-Sheet 2 Jan. 22, 1952 L.. P. BLACK .SINE EAR GRINDENG WHEEL TEUING DEVICE 4 Sheets-Sheet 3 Filed Oct. 30, 1945 s Ve R n mh y EC Va mz /M El Z m PT m en L. f

Jan. 22, 1952 P. BLACK 2,583,408

SINE BAR GRINDNG WHEEL. TRUING DEVICE Filed Oct. 30, 1945 4 SheetsL-Sheet 4 Patented Jan. 22, 1952 emanan GRI'NDINGHWHEEL TRUING: DEVICE Lon renferme enligne rare, N. J; s Applicationoctdber 30, 19451,?S`er`al No; 6255639I (ci. 12s-in is` claims.

l 'Ii'hisinvention relates to'grindingv wheel truing devices. l

Inf tool rooms certain kinds of work done on surface grinding.k machines, such as grinding forming tools for automatic screwmachines and gauges; requires vangles of diierent degrees, Whichis accomplished' either by holdingv they work at the required angle in relation-to the straight cylindrical grinding Wheel, or the vvheelsy side or periphery is truedL to the required angle so that-when thework is'groun'd with the wheel so formed' it` will have an identical angle. Frequent1y,.thesame pieceof work requires different angles, varyingfrom' 0 to 90 on either side of the perpendicular line, in combination with other horizontal grindingfvsurfaces ofV different width and of different depth, in the form of steps, from which theangular surfaces must diverge within specied precise dimensions.

This type of work isheld directly on the magnetic table of the surface grinding machine whenever possible, or is heldin a vise, or clamped to anY angle plate, and various settings and rcsettings of the work at different angles in relation to the straight grinding wheel is not only diiiicult, but are l time-consuming operations. inaccuracies arelikely to occur in the process of various resettings of the work. It is preferable, therefore,- notto disturb` the work in the rst set position until all the grinding surfaces, angular as" well as" horizontal, have been completed, and this is one important reason Why angle truing of the grinding wheelis resorted to. Moreover, when grinding,v acute anglesj adjacent and close to other angular or vertical sections of the work, the latter could not be set at that anglerelative to the straight cylindrical grinding wheel, and therexwould berno other alternative but to. true the grinding Wheel to the required angle andthe work ground by it.

The various methods, however, that have been employed for truingthe grinding wheel at an anglehave not. proved successful because the truing means applied proved'inconveni'ent in use arid because' the angle wass'eldom" found to be eXiGb` according tdsp'cc'atin's' When" thev Work was examined under a miscroscope or in a shadow projector; both now in general use in modern tool-inspection rooms. Trial cuts on the work, therefore, had to be made; the results indicating the necessary" adjustments required in the truing device andthewheel truedagai'n and after another c'ut`v on the Work it hadto' be again examinedfunder' the microscope t'o' determine ii the angleii's'correct' or if'further a'djustmentsare requirente' device, showing det .Iti is' anobject ofthe present invention, to pro'- videK anf instrumentality by means of which, any desired angle can be accurately formed-on grinding wheels Witha minimum effort.

Another object; of the invention is theprovision of a device which willtrue a-grindinglwheel topany angle from 0 to 90 at either side thereof withV perfect accuracy by' employing the Prin,- ciples'- ofn trigonometric functionsA of ang-lesyby means ofV which` the, device maybel setf or adjusted precisely, and a high-.degree of accuracy assured in the1inished product.` ,Y U n Y A further obiect'offthe invention/ is thefgprovisiongirrl an, instrument of this character. for controlling the proper .position of a diamondv point for ,truing a grinding Awheel;v at a predetermined angle,v including means 4for adjusting the diamond .point to the predetermined Vangle and movingit in` this pathwith referencel to the center ofA rotation of thegrinding wheel to. true the wheel accordingly.v s d s Y l Another object of my invention isv theprovision with a-suitab1e form ofv support of cooperating elements including a'- member capable of being set at theidesiredangle-andasine-bar positioned thereby Whichl XeSfthe; 51311131 PQSOIFOQB cutter, together withvmeans for reciprocating the cutterinthe path thus-set.` M s n inventionalso hasfor its further/ object to= provide,V inv con-junctionu withv thel s member whichngoverns the position of they sine-bar,l a plurali-ty pt vxed stops,VV one. or another of vwhich may -be used alternately to I neet'tlfie requirements of the more frequently u sed` angles for Vgrinding Whse-leerd w, Supply fOr-.ilse in; coni-umm therewith, andY alsa in conjunction withv the sine-bar, interchangeable elements by meansof which other'angular settings in` great` variety may be' obtained quickly and'y accurately.

To these and other-ends my' invention embodies further improveme'r'itls, all as will be` fully described in the accompanying' specication. the nove-lV features-thereof being set' fith' in! the appended claims. l

the drawings;r Y s Fig. 1` is a" side; view" ofC sin'elbar" grinning wheel truing' device, wrich'i is: adapted to be held Von thev magnetic table of a surface' grinding lahhe Y Figi 2 is aC vertical loingitudin'al section ofthe Y ails of construction and its relation' toja grindingAl wheel.-

j Figs. ei,- i mdf 51ers veruai views 100k-img toward the: face-0r the-support and snowing dia- 3 grammatically the relative positions of the angle setting member and its cooperating stops, together with the sine-bar in various positions of angular adjustment.

Figs. 6 and 7 are diagrammatic illustrations showing additional settings of the parts depicted in Figs. 3 to 5.

Figs. 8, 9 and 10 are additional diagrams illustrating the use of auxiliary elements for use in setting the angle control member and sine-bar in positions of angular settings.

Figs. 11, 12 and 13 each show in plan and side elevation forms of the auxiliary members which may be used in connection with the sine-bar.

Figs. 14, 15 and 16 each show in plan and side elevation additional auxiliary members for use with one or another of the setting pins for locating the angle controlling member in various positions.

Fig. 17 is a cross-sectional view taken on the line I'l-I'I of Fig. 2a, illustrating the grooves controlling the longitudinal and rotational movement of the setting pins.

Fig. 18 is a face view of a lock washer.

Similar reference characters in the several figures illustrate similar parts.

To overcome the difficulties heretofore experienced in truing grinding wheels and to provide a truing instrument by means of which any desired angle can be formed on a grinding wheel, I have Y.

provided one comprising a base member or support I having a foot portion provided with a flat bottom surface 2, which enables it to be held securely on the magnetic table of a surface grinding machine in the desired position, with reference to the grinding wheel W, one or another of the surfaces of which are to be trued. The support is also provided with a vertically extending face 3 on its forward side, and at its upper end is a head 4 in which is mounted a horizontal shaft 5 carrying the truing cutter and the mechanism for setting and operating it. Mounted on the shaft against the face 3 is an arm 6 which is secured to the shaft by a pin 5a so that when the arm is rocked the angular position of the shaft and the parts carried thereby will be determined. The arm 6 constitutes the sine-bar and mounted on its hub extension 6a is a freely swinging or floating segment, hereinafter designated the angle setting member, indicated by 1. The shaft 5 is provided with an annular shoulder 5b which bears against the arm 'I and at its rear end carries a thumb screw `8 which may be tightened against a non-rotatable washer 9 to lock the aforementioned parts in their adjusted position. At an intermediate point in its length the shaft is grooved, as indicated at 5c, to receive the inner end of a set screw 5d by means of which, in addition to the thumb screw 8, the shaft may be immobilized.

The forward projecting end of shaft 5 carries a spherical head I0, having a transverse bore in the plane of the center line of the sine-bar 6.

and a cylindrical outer end II, on which is journaled a bevel gear or pinion I2, held in place by the head I2al of a screw tapped into the ex- .tremity of the shaft end II lying within the pinion I2. This pinion is operated to advance or retract the truing tool by means of a hand crank I2b secured to its hub by a pin I2C.

Extending through the bore in the spherical head I0 is the tool carrying mechanism, comprising a sleeve I3 which is held rigidly by a. set screw I3a threaded within the shaft end I I,

said sleeve forming a guide for a longitudinally All) movable tool bar I4. The lower end of the sleev'e I3 is provided with an annular shoulder I3b and between it and the lower side of spherical head I0 there is journaled a bevel pinion I5 meshing with pinion I2, and rotating therewith is a cap nut I6, which embraces its hub and is locked thereto by a set screw Ilia. The upper end of the cap nut has a key I6b which engages in a milled groove in hub of gear I5 (see Fig. 1). This connection insures a positive rotation of the cap nut as the direction of rotation of said gear is alternated to advance or retract the tool bar. The lower half of the length of the tool bar I4 is threaded and in engagement with the cap nut and its outward movement is limited by the stop screw I4b which will engage with the bottom of the cap nut I6, as shown in Fig. 2. Rotary movement of the tool bar is prevented by a key I1 carried in sleeve I3 and lying in a groove or key way in the bar. It will be seen from this arrangement of the parts that, in accordance with the direction of rotation of the crank I2b, the tool bar may be advanced or retracted as desired.

At its outer end the bar I4 is provided with a head I4c and extending transversely thereof is a short rod I4d studded at its ends with diamond points IB-Ia, said rod being removably held in place by a set screw Me.

In wheel truing operations, a considerable amount of abrasive material is liberated in the form of dust and, in order to protect the above described mechanism, I provide a suitable casing I9, preferably made in half sections of plastic or other suitable material, which enclose the gea-rs I2 and I5. These parts bear against the shoulder 5b of the shaft 5 and fit in a groove in the upper end of the sleeve I3. These half sections are held together in any suitable manner, such as by screws passing through ears on their meeting edges, as will be understood.

By reason of the movability of the tool bar I4, I provide a collapsible and elongatable tubular sheath 20 of a rubberized material, the extremities of which are wired in place in grooves formed in the head Illc of the bar and the upper end of the sleeve I3. Likewise the lower end of the bar and the cap nut I6 are protected by a dust cover 2I which may also be used as a receptacle for oil for lubricating said parts.

Angle setting mechanism In the foot piece of the support or frame I. and located at a predetermined radial distance from the center of shaft 5 and from each other, are a plurality of stop pins, three being shown for convenience in description and illustration. These are indicated by 25, 26 and 21, the rst being directly below or perpendicular to the shaft 5, and the others at points 15 to the left and right thereof (see diagrammatic figures), and located on an arc which is beyond the arc of movement of the sine-bar 6. Since but one of these pins is used at a time, and where one of them is operated it is to be rotated a quarter turn, I provide them with knurled knobs for retracting them with reference to the face 3 of the support, and provide each with a longitudinal groove 28 at the rear end of which is a 90 groove 29 (Fig. 17), both the slot and groove cooperating with the inner end of a screw 30 threaded into the support. as shown in Fig. 2.

The aforesaid pins form part of the angle setting mechanism which determines the angle of operation of the tool bar carrying the diamond points. The outer ends of these pins asserts cooperate wird centra-r elongated opening which may bein uieform off-a slot-at iiis the lower endAJ fthe floating segmentar ar'fnr and also witii'itjs lateral edges; since ihesises of this slotand the; ends of" the`A- pins are close tting, l make this elongated opening; little deeper ih tiiejeireiimferences of the pins can for' andy insurewtheeasyfengagement or the therewith', In hatten them on two' sides, as indicated. by ez (Fig zo, whichiwheir rotated a" quarter turn. insures the arm 1v4 being" firmiy locked against any piay; I consider' this" satieni'iig" oriuieA ene'sof thepins; and) the* location of" these` portions` with: ref erence' tjo the slots 28 inthe o nsf important anni iocaieiuiem so that the fistswillA extend radiauy of' the axisof shaft 5 and. hence' parallel to the walls' ofl the slot ai", whenever the pins` are to oeimoveiringrtu'dnaiiyf in either direction. This* arrangeiiient, it 'win be. seen facilitates the: engagement of the inner ends of thepins with the slot' 3`l Sin tli` the Width Offth ltlel" and( the diameter of thevegaging endsV or" thel pins.' are meldet@ t very accurately; Another' point Vin this.. construction i"s the requirement. that' the Ipirisimust he'. rotated a quarter turn hefore they can. b''retracted'as this insures their being prop'- erly, positionedl upon retraction for their next insertion andlthe`9U arc of" the. slot 291 insures the fulldiarneteof a pin being. positioned crosswis'efof slot 3`l. TheseA locking. connections', it will1 be. observed',Y are located l below the extremiiy'efiiesnrbat6l Theangular. settingof.v the shait 5 is eliected by the cooperative action o fy theiloating segment l and the sine-mbar.V 6 by providing the former with radiallyV` disposedlateral edgesor suriacesr'lav-lif-and the latter with astud 6D.

Therelativesizes Vand, they distanesbetween partsv forming:A this. mechanism may, of course, be varied, but. for. better understanding, of. their operation, certain fixed dimensions and distances between i partsare. arbitrarily assumed, as

`byf means? of specific examples and 'gures the description of theV workingl of thel devicer will be greatly simplied and more readily underswim.k

1 Accordingly;4 it. shall be assumed ,that the length. or' the. sinebar2v i. e. the vdistance betweenthecenter ofshaft 5 andthe center of studliiis-exactly two inches; that the distance between saidshaft` center and the. centersof the sliding stop-pins 25, 2B and 21 isv exactly vt'wojanhd oneghalf inches-and that. theA angu- Therefore; itwill bev seenV thatwhen' the 4side of the oating segment is brought to bear against the-right side of the stopf-pin 25 or the Vsidela againstl the left side of the same `stoppin and the stud 6l! of the sine-'bar isfin pressed corit'aict withv either; side 'lai or side 1b; as the casemay be, the'sine"b'ar and alsoY the sliding tnol"l bar:- I4 will; be* in the true vertical position,

examination offFig 3 it" will be seen'1 that theJ stud and* stopepin 25- both" occupy' the same angle*` of? 1'09,V but theVl latter is^ of larger diameter,y` because it1 isi located atY a .distance farther than said stud from the' centeroy the shaftl 5. Hence;' the side' la of" the angle setiting member 'I is infcontactfwith the left side ofV boththe stud' 60 and the stop-pin 25;and the sine-bar 6 and the Sliding rodr or toolv bar" Il are both in true verticalv position; However, if the position of thefloating segment"Y 1i bey left undisturbed, but the stud 60' be brought in contact with the opposite side 'lb of the floating segment 1, as shown in dotted lines at 6B", the position of the' sine-bar 6; and hence ofthe tool bar I4, would now be aty 4'5"; thus giving two complementary angular settings' with one position of the angle determining member.

With the= elerii'ents` in position shown' in` this Fig. 3, the operatorholds with onel-handll the side Ia of the oating segment 1f in pressed Contact with both the' sliding'- stop-pin 25 and the stud 6U of the sine-bar; for the 0'setting, orthe'stud Ellis heldl in pressed' contact against the side 1b and the side 'lat against pin 25, for the 45 setting, while with his other hand he tightens the clamping screw 5d and the thumb screw 8; to secure the position of the parts in operation.

If the above described angular" setting off the instrument isithe' one atV which itv is desired to dressror'true one `of the faces of a grindingwheel, the latter is adjusted relatively to the truing' instrument to bring the faceto bedr'e's'sed into engagement with the proper diamond point It. This'` is accomplished. by manipulation of the longitudinal-and cr-o'ss'feeds of'the grinding machine per se, as will be understood. FollowingI this adjustment of the grinding wheel, the operator, byrotatingtheihand crank l2b, causes the diamond point to traverse the grinding wheelzas many times as may be required to' effect a cut to the' desired depth.

The depth of the'cut, or' rather the width of the angle produced' on the grinding wheel, is controlled either by manipulation of the vertical slide of the grinding machine which will advance thev wheel towardthe diamond orthe cross-feed of the machine bed; whichwill advance the diamond toward the rotating wheel, as desired, after each reciprocation of the tool bar Iii.

An` illustration `o'f thervfacility of adjustment is also shown in Fig. 3. There in full linesihe'right hariddiamondpoint isshOWTniI'i` position to" dress theleft" harid' face of wheel W p'erpendicularly. Should itlb'e desired t'o dre'sstheopposite' face' of the Wheel at'arrangle of'45, it'is lmerely necessary to loosenith'e locking device 5d andiB-of shafts and swingI the sine-bar" 6 over" until its stud Gil' engages the surface lbof theangle settingmember, as shown in dotted linesat 60X.- Thus,-it'wi1l be seen that; with each setting ofthe angle setting memberr'i, thew-heel dressingpoints maybe'positioned in twoV` different complementary angular positions; n

In Fig. 4` the'floating'segment is shownastride and locked by the'center stop pin 25, so thatin this position itsopposite edges are'at equal angles at opposite sides of a' vertical Lline passing through the' axis of shaftv 5. It being recalled that its opposite Vedges are'on radii 35, it will be seen that when the sine-bar stud Bil is in englfge'rne'ntz with the surface 1b' the axis' of the tool bar' is- 22"-7-3'0 tothe rightl of the zero or perpendicular plane'and thatwhen the sine-bar is' adjusted K to {position-itsv stud 'against' the" face Ta'said loai'yvillv be'thr'own` into a" plane 22'3`0' totheleft offthezerdor perpendicular rests against the left hand side of pin 26.

Another tool setting is shown in Fig. to illustrate the operation when the floating segment is in cooperation with one of theA side pins, in this instance the pin 26. Now with the sinebar stud 60 in engagement with the surface 1a, the plane in which the tool bar i4 may be reciprocated lies at an angle of '1-30' to the left of the vertical, whereas i-f the sine-bar is set to engage its stud with the surface 1b, the tool bar will be located in a plane 37-30 to the right of the zero or vertical plane, as shown in dotted lines.

Other angular settings may be attained by engaging one or the other of the converging sides 1n or 1b of the angle setting member with one side or the other of the locating pins 25, 26, 21 and such adjustments are shown particularly in Figs. 6 and 7. In Fig. 6 the surface 1a Now with stud 60 also in engagement with surface 18, as shown in full lines, the angularity of the tool bar will be to the right of the perpendicular, whereas if said stud is brought to rest in the dotted line position, the position of the tool bar Will be in a plane 60 to the right of the perpendicular.

In Fig. 7 the member 1 occupies a position with its surface 1b in contact with the right hand side of pin 26. With the angle setting member thus iixed and the sine-bar stud in the full line position in contact with surface 1a, the cut to be made will be at an angle of 30 to the left of the perpendicular, whereas by shifting the sine-bar to position its stud against the surface 1b the out will be made at an angle of 15 to the right of the zero plane.

The foregoing illustrates the wide range of settings made possible by the use of a few relatively movable parts whereby I am able to set the instrument to cut surfaces on the angles most.

frequently used at either side of the perpendicular, viz. 0; 1-30'; 15"; 22-30'; 30; 37-30'; 45, and 60. However, it will be understood that these may be varied ad infinitum vby using additional floating segments, or angle setting members 1 in which the side faces are otherwise disposed as, for instance, at angles of 25 or 55, or by increasing the number of stop pins and so disposing them as to provide different angle values.

A means which I have devised for rendering the described instrument adaptable to any other degree, as well as fractions thereof, Vwhile maintaining the simplicity of the parts depicted in Figs. 1- and 2, comprises the use of auxiliary rings or blocks which may be slipped on the sine-bar stud, or appliedl to the ends of the angle setting Pins, and used either singly or collectively, in these positions. Examples of the operation of such devices are given in Figs. 8 and 9, and said elements are illustrated in Figs. 11 to 16.

A set of the auxiliary elements for u se on the sine-bar stud 60 comprises a circular; disc 1D (Fig. 11); a rectangular block 62 (Fig. 12); and yoke pieces 63 (Fig. 13), the iirst two having holes and the third a slot accurately vfitting the stud. 60. The corresponding elements 10, 62@L and 63a for use on the angle setting pins 25, 26 and 21 are of similar design with the exception that each of these parts is provided with a hub at its innerl side sufficiently long so that when applied to a pin they will lie the path of movement of theoatng segment, or angle setting member 1 for engagement with one or the other of its edges 1n or 1b.

` The outside diameters of the discs of Figs. 11

8 and 14 and the widths of the oblong blocks are accurately ground to the sine of the angle in accordance with the identification degree markings on each of them, such as those shown in the drawings, ranging from 3 to 10 in steps of single degrees.

For the purpose of emphasizing both the adaptability of a grinding wheel truing instrument embodying my invention and the advantages found in using the above described auxiliary elements, I have shown in Fig. 10 the use of Johannsen blocks 15 employed between one of the sides 19' of the angle setting member and the sine-bar stud 60, although such might be inserted between the face 1b of said member and the pin 26 by means of which any desirable angular setting may be obtained. In the example given, the angular adjustment of the tool bar is arbitrarily taken as 4129 (Fig. 10) to accomplish which the angle setting member is set irst to position the sine-bar for a 30 angle. Second, a trigonometric table is consulted to learn the sine for the angle 11-29, which is .19908, and knowing that the distance of stud from the center of shaft 5 is two inches the sine value is doubled and J ohnannsen blocks to make up the required angle are selected. In this instance, they are .150, .148 and .1002. Third, in thisl assembled form they must be held in place while the shaft 5 is locked, all of which is a more complicated procedure than the use of the aforementioned auxiliary elements which obviate the second step entirely and contribute to the speedy and accurate setting of the instrument and facilitate its operation by either the method of addition or subtraction.

Two illustrations of the additive method are shown in Fig. 8 one where the ring 10 marked 10 (Fig. 11) is placed on stud 60, the parts having originally been set in the 30 position shown in Fig. 7. The addition of the ring changes the sine-bar position (30-|-10) so that the tool bar is set at a 40 angle at one side of the zero or vertical plane. The second illustration is that of the sine-bar thrown over to the left with the stud (in the dotted line position) carrying a block 63, such as that shown in Fig. 13, with its side marked 3-15, interposed between the stud and the face 1b, giving 15+315, and assuring an angular position of the tool bar of 18-15.

A double addition method of operation of the instrument is also possible by the use of two rings or blocks or a ring and a block, as will be observed in Fig. 9. Here, a ring 10, such as that shown in Fig. 11, marked on its face 4, is placed on sine-bar stud 60 and an oblong block 63, such as shown in Fig. 16, is placed on angle setting pin 21 with its side marked lf-45' against the face 1a. This block locates the angle setting member so that the 4 ring resting against the other `face 1b so displaces the sine-bar that the tool bar lies at an angle of 3845, This` is accomplished thusly: had the radial side 1 of the angle settingmember been in engagement with the left side of pin 21 and stud 60 in engagement with the surface 1b the sineebar would have been in a 30 position, but the bar is offset 4 and its controlling member likewise offset 4--.f15', which gives 30+4.-45/+4,

The foregoing examples make it plain that in an instrument comprehended by my invention, in which innumerable settings can be made for all angles employed in every day machine shop practice, it is quite possible with an auxiliary complement composed of a few rings and blocks.

such fas described, fito :obtain f-angular settings 'for Ea '.tool bar lat :any angle which rit is :desired -to meet indegrees and minutes from 50 "to 90 on either side of a zero or perpendicular plane.

"What I claim and desire 'to protect by Letters ,Patentzisz l1'. A :grinding Wheel truing .instrument Vcom- `prising .a rotatable shaft carrying Aa transverselyy movable toolbar, asine-bar attached to the shaft '-'for rotating it to swing the toolbar into elected prising `a 'horizontal Vrotatable shaft carrying a transversely movable tool bar, Van `angle setting member loosely mounted `on the 'shaft having a 'lateral edge extending radially :of sa-id axis, `a

sine-'bar fixed'to the shaft and movableinto and 'out -of engagement with 'said edge for Ydeterminl ing the angular position of the toolbar, aframe supporting the shaft and -independently adjust- Aable-stops on the frame disposed with reference to the shaft axis, one of Which is located in a vertical plane `containing the shaft axis andthe others fat equal angles at each side of said plane, .for lcooperation with said edge of the setting Amember to hold itin various positions of angular adjustment.

`3. A grinding wheel 'truing 4instrument vcomprising Va `rotatable shaft vcarrying a transversely movable tool bar, an angle setting member loosely mounted on the shaft having lateral'fedg'es extending radially of jsaid axis, va 'sine-bar fixed to the shaft andarranged Ato cooperatewith either 'of said edges for determining the 'angular position of the tool bar, a" frame in which the shaft is journaled and a stop on the `frame sodisposed with reference to the shaft axis as to lcooperate with either of said radial edges.

'4. A grinding wheel truing instrument cornprising a .horizontal rotatable shaft carrying a transversely movable tool bar, Van angle setting member loosely mounted on the shaft having lateral edges extending radially vof said axis and provided with a central aperture, asine-bar fixed to the shaft and arranged to cooperate with either of said edges for determining the angular position of the tool bar, a frame in which the shaft f.

is journaled, a "stop 'on the frame cooperating with said aperture to secure said member to position the sine-bar and locate .the .tool bar v`alternately at equal angles at opposite sides of a plane perpendicular to the shaft axis.

5. A grinding wheel truing instrument comprising a horizontal rotatable shaft carrying a transversely movable tool bar, .an angle .setting member loosely mounted on lthe shaft having lateral edges extending radiallyof :said axisvandproi,

vided with-a central aperture. a, sine-bar :fixed to the shaft and arranged tocooperate with Aeither of .said edges for determining ythe, angular posi-- tion of the `.tool bar, a frame in which ztheshaft is journaled, a stop on the Vframe capable of ucooperating with said aperture or with either of said radial edges of `4the member, in the first instance serving to causethe tool bar to be located alternately .at `equal angles, and, secondly, `alternately at unequal complementary angles at opposi'te sides :of aplane perpendicular to the sha-ft laxis.

Adisposed aperture, `a Vframe supporting the Ishaft,

.a pin adjustable on the frame 'disposed beyond 'thearc 'of movement of said stud, selectively cooperating withthe aperture 'to hold the member centrally or its sides cooperating with either 'radial edge of the member to locate it alternately at equal distances off center.

7. A grinding wheel truing'instrument embodying a horizontal shaft, a transversely movable tool bar thereon, a sine-bar fixed to the shaft having a stud, an angle setting .member loosely mounted onthe shaft having lateral edges Adisposed along radii of said axis, determining the position lof said stud and sine-bar to iix the angular position ofthe tool bar, a frame supporting the shaft, a plurality of pins on the frame, ydisposed lat equal distance from the axis of the shaft and evenly spaced apart 'beyond the arc of movement of said Vstud and arranged to cooperate with alternate sides of said member to determine different angular adjustments thereof and of the sine-bar.

8. A grinding' Wheel truinginstrumentembodying -a 'horizontal shaft, a transversely movable too'l barthereon, a sine-bar xed `to the 'shaft having a stud, an angle setting member rotatable about the axis of the shaft having'la'teral edges disposed `along radii of said axis, determining the position of said stud and sine-bar to x the angular position of the tool bar, a frame fsupporting the shaft, a plurality of pins on the frame, disposed at equal distance from the axis of the shaft and` evenly spaced apart beyond `Vthe arc of movement of said stud, each of said pins being of a diameter dened by the arc between vthe radii projected at opposite sides of said stud, their opposite sides serving to alternately cooperate vvith the radial edges of the member to locate it at different angles to establish at Adifferent times fixed positions for the sine-bar.

9. A grinding Wheel 'truing instrument comprising a 'frame having a base and a vertically extending face, a shaft journaled on the base at right angles Ato said yface and carrying a thumb screw 0n one of `its -en'ds for locking it 'against rotary movement, a sine-bar having a hub fixed to the shaft and extendingover said face, a movable angle setting member 'loosely mounted `on the hub of the `sine-bar and in operative engagement with the sine-bar, means on the `base arranged for engagement with said member to fix the 'angle setting member and sine-bar in various positions of angular adjustment, a tool bar carried on the Vshaft located in the plane of the sine-bar and means for reciprocating it embodying an operating element carried on the end of the shaft.

l0. A grinding Wheel truing instrument comprising va frame, a shaft journaled thereon, having an end extendingbeyond the frame and having a transverse bore, andlocking means on the opposite end of the shaft for locking the shaft in adjustersl position on the frame, a sleeve extending through said bore, a Atool bar guided in the Vsleeve Iand provided with a screw thread. a

l1 pinion journaled on the sleeve, a cap nut on the pinion cooperating with said thread and a second intermeshing pinion journaled on the end of the shaft secured to a manually operating crank for alternate rotation to reciprocate the tool bar.

11. A grinding wheel truing instrument comprising a base having a head portion, a horizontal shaft journaled therein carrying a reciprocatable tool bar, an angle setting arm depending from the shaft and movable transversely to a vertical plane extending through the axis of the shaft, said arm having opposite edges converging along radii extending from the center of the shaft and means on the base for securing the angle setting arm in its adjusted position, a sine-bar fixed to the shaft having a stud for engagement with either edge of the arm to fix the operational angle of the tool bar at a selected angle extending at either side of said vertical plane and means on the frame and on the end of the shaft for locking the shaft in its adjusted position.

12. A grinding wheel truing instrument comprising a frame having a head, a shaft journaled therein having an end projecting beyond said head and provided with a transverse bore, and means on the frame and on the end of the shaft foi locking the shaft in various positions of angular adjustment to the frame, a sleeve secured in said bore carrying a bevel pinion, a threaded tool bar guided and held against rotational movement in the sleeve, a cap nut on said pinion having a threaded engagement with the thread on said bar, a second pinion meshing with the first mentioned pinion and journaled on the end of the shaft and a hand crank attached to the last mentioned pinion.

13. A grinding wheel truing instrument comprising a frame, a horizontal shaft journaled therein having an end portion provided with a transverse bore, a sleeve secured therein carrying at its lower end one of a pair of bevel pinions, the other being mounted on the end of the shaft, a tool bar guided in the sleeve having a threaded end, a cap nut thereon having connection with the first mentioned pinion and a flexible dust guard surrounding the upper end of the bar beyond the end of said sleeve.

14. A grinding wheel truing instrument comprising a frame, a horizontal shaft journaled therein having an end portion provided with a transverse bore, a sleeve secured therein carrying at its lower end one of a pair of bevel pinions, a. tool bar extending through the sleeve and having a lower threaded end, a cap nut carried by said pinion having a threaded connection with the lower end of the bar, the other pinion of lsaid pair being mounted on the end of the shaft, a flexible dust guard surrounding and projecting beyond the upper end of the sleeve and surrounding the exposed end of the tool bar, and a tubular member carried by the cap nut and similarly protecting the lower end of the bar.

15. A grinding wheel truing device comprising a frame, a shaft journaled therein at one end and having a free end provided with an enlargement, a sleeve extending transversely therethrough carrying a bevel pinion at its lower end, a tool bar in the sleeve having a threaded end, a cap nut thereon connected to said pinion, an intermeshing pinion carried on the free end of the shaft, a flexible dust collar secured to the upper end of the sleeve for protecting the extending end of the bar, a tubular member carried by the first mentioned pinion and forming a second dust guard protecting the lower end of the tool bar and a dust protecting cover carried on the shaft and enclosing its free end portion and said bevel pinions.

16. A grinding wheel truing device comprising a frame, a shaft journaled therein having a projecting free end, a sleeve extending transversely therethrough carrying a bevel pinion at its lower end, a cap nut embracing the hub of the pinion and secured thereto, a tool bar in the sleeve having a threaded connection with the cap nut, an intermeshing pinion carried on the end of the shaft, a flexible dust cover secured to the upper end of the sleeve for protecting the upper end of the tool bar, a tubular casing carried by the cap nut for protecting the lower end of the tool bar and a dust protecting cover carried on the shaft and enclosing the free end of the shaft and said pinions.

17. A grinding wheel truing instrument embodying a supporting frame, a rotatable shaft thereon carrying a transversely movable tool bar, an angle setting member journaled on the shaft having an opening centrally located at a distance from the shaft, a plurality of locking pins movable transversely of the setting member for selective engagement with said opening arranged for locating the member in a variety of predetermined angular positions in respect to the vertical plane extending through the axis of the shaft, a sine-bar secured to the shaft carrying a stud adapted for engagement with one or the other side of the setting member to x the operative position of the tool bar, and means on the frame and on the end of the shaft for locking the latter, the sine-bar and the tool bar in the set position.

18. A grinding wheel truing instrument embodying a supporting frame, a rotatable shaft thereon carrying a transversely movable tool bar, an angle setting member journaled on the shaft having an elongated opening located at a distance from the shaft, a cylindrical pin guided on the frame for both longitudinal and rotary movement having an end in engagement with the sides of said opening to x the operative position of the setting member, said end having a reduced diameter which when the pin is partially rotated facilitates its insertion in said opening, and a sine bar on the shaft cooperating with the angle setting member to x the angular position of the tool bar.

LEON PAUL BLACK.

REFERENCES CITED The following references are of record in the le of this patent:

l UNITED STATES PATENTS Great Britain Mar. 23, 1933 

